CN109664694A - A kind of work state monitoring method and device of tyre detacher - Google Patents

Disclosure of Invention

The embodiment of the application provides a working state monitoring method and device of a tire dismounting machine, which can be used for effectively monitoring the working state of the tire dismounting machine of the Internet of things.

In a first aspect, the embodiment of the application provides a working state monitoring method of a tire dismounting machine, which is applied to an internet of things tire dismounting machine, wherein the internet of things tire dismounting machine comprises a tire dismounting module and an internet of things module; the method may comprise:

the internet of things module receives a first instruction sent by a client, wherein the first instruction is used for unlocking the use permission of the tire dismounting module;

the Internet of things module monitors the working state of the tire dismounting module;

the Internet of things module receives a second instruction sent by the client, wherein the second instruction is used for closing the use permission of the tire dismounting module;

the internet of things module sends first information to an internet of things server, wherein the first information comprises the working state of the tire dismounting module and the time information corresponding to the working state, which are monitored in a first time period, and the first time period is the internet of things module receives the first indication and the second indication.

Through the embodiment provided by the first aspect, the working state of the tire dismounting module is monitored in the time period between the first indication and the second indication sent by the client, and the working state in the time period and the corresponding time information are sent to the internet of things server, namely, the internet of things module of the tire dismounting machine based on the internet of things can start to monitor the working state of the tire dismounting module after the use permission of the user is confirmed based on the first indication and the second indication sent by the user client, and relevant information is sent to the internet of things server for relevant supervision or processing, so that the effective monitoring in the process is ensured, and the user experience is improved.

In a possible implementation manner, after the receiving, by the internet of things module, the first indication sent by the client, the method further includes:

the internet of things module sends the dismouting child instruction to tear child module open, the dismouting child instruction is used for instructing tear child module open child or dress child.

In one possible implementation manner, the monitoring, by the internet of things module, the working state of the tire demounting module includes: the Internet of things module monitors the pressure value of a power pump and the rotating speed of a main shaft when the tire dismounting module is used for dismounting or mounting a tire; the method further comprises the following steps:

the internet of things module adjusts the pressure value of the power pump to a first preset range under the condition that the pressure value of the power pump exceeds the first preset range; and/or the presence of a gas in the gas,

and under the condition that the rotating speed of the main shaft exceeds a second preset range, the Internet of things module adjusts the rotating speed of the main shaft to the second preset range.

In a second aspect, an embodiment of the present application provides a method for monitoring a working state of a tire dismounting machine, which is applied to an internet of things server, and includes:

the method comprises the steps that an Internet of things server receives first information sent by an Internet of things module, wherein the first information comprises the working state of a tire dismounting module monitored by the Internet of things module in a first time period and time information corresponding to the working state; the Internet of things module and the tire dismounting module are modules in an Internet of things tire dismounting machine; the first time period is a time period between a first instruction and a second instruction which are sent by a client and received by the internet of things module, the first instruction is used for unlocking the use permission of the tire dismounting module, and the second instruction is used for closing the use permission of the tire dismounting module;

and the internet of things server supervises the tire dismounting module according to the first information.

In a possible implementation manner, the working state of the tire dismounting module monitored in the first time period includes a power pump pressure value and a spindle rotation speed when the tire dismounting module carries out tire dismounting or tire mounting, which are monitored in the first time period;

the internet of things server supervises the tire dismounting module according to the first information, and the method comprises the following steps:

the internet of things server determines target time information that the pressure value of the power pump meets a first preset range and the rotating speed of the main shaft meets a second preset range in the first time period according to the pressure value of the power pump and the rotating speed of the main shaft when the tire removing module removes or installs the tire monitored in the first time period and time information corresponding to the pressure value of the power pump and the rotating speed of the main shaft;

and the Internet of things server determines the normal working time of the tire dismounting module in the first time period according to the target time information.

In one possible implementation, the method further includes:

and the internet of things server sends the normal working time of the tire dismounting module in the first time period to the client.

According to the second aspect, the internet of things server receives the first information sent by the internet of things module, so that a large amount of data can be analyzed and processed; the internet of things server calculates the normal use time of the internet of things tire dismounting machine according to the first information, calculates the time of the user using the tire dismounting machine which normally runs, achieves the purpose of monitoring equipment running, and is beneficial to effectively monitoring the running condition of the internet of things tire dismounting machine.

In a third aspect, the embodiment of the application provides a working state monitoring device of a tire dismounting machine, which is applied to an internet of things tire dismounting machine, wherein the internet of things tire dismounting machine comprises a tire dismounting module and an internet of things module; the apparatus may comprise:

the first receiving unit is used for receiving a first instruction sent by a client by the Internet of things module, wherein the first instruction is used for unlocking the use permission of the tire dismounting module;

the monitoring unit is used for monitoring the working state of the tire dismounting module by the Internet of things module;

a second receiving unit, configured to receive, by the internet of things module, a second instruction sent by the client, where the second instruction is used to close the permission of the tire dismounting module;

the first sending unit is used for the internet of things module to send first information to the internet of things server, wherein the first information comprises the working state of the tire dismantling module and time information corresponding to the working state, which are monitored in a first time period, and the first time period is the time period between the first indication and the second indication received by the internet of things module.

In a fourth aspect, the embodiment of the present application provides a working condition monitoring device of a tire dismounting machine, which is applied to a server of the internet of things, and includes:

the communication unit is used for receiving first information by the Internet of things server, wherein the first information comprises the working state of the tire dismounting module monitored in a first time period and time information corresponding to the working state; the tire dismounting module is a module in the internet of things tire dismounting machine, and the internet of things tire dismounting machine further comprises an internet of things module; the first time period is a time period between a first instruction and a second instruction which are sent by a client and received by the internet of things module, the first instruction is used for unlocking the use permission of the tire dismounting module, and the second instruction is used for closing the use permission of the tire dismounting module;

and the supervision unit is used for supervising the tire dismounting module by the Internet of things server according to the first information.

In a fifth aspect, an embodiment of the application provides a tire dismounting machine, which may include a tire dismounting module and an internet of things module, where the internet of things module includes a storage component, a communication component and a processing component, and the storage component, the communication component and the processing component are connected with each other, where the storage component is used to store a data processing code, and the communication component is used to perform information interaction with an external device; the processing element is configured to invoke the program code to perform the method according to the first aspect, which is not described herein in detail.

In a sixth aspect, an embodiment of the present application further provides an internet of things server, which includes a processing component, a storage component, and a communication component, where the processing component, the storage component, and the communication component are connected to each other, where the storage component is used to store data processing codes, and the communication component is used to perform information interaction with an external device; the processing unit is configured to call the program code to perform the method according to the second aspect, which is not described in detail herein.

In a seventh aspect, an embodiment of the present application provides a computer-readable storage medium, where the computer-readable storage medium stores program instructions, and the program instructions, when executed by a processor, cause the processor to perform the method according to the first aspect, and details are not described here again.

In an eighth aspect, embodiments of the present application provide a computer-readable storage medium, where the computer-readable storage medium stores program instructions, and the program instructions, when executed by a processor, cause the processor to perform the method according to the second aspect, and are not described herein again.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

The terms "first," "second," and the like in the description and claims of the present application and in the accompanying drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments. The technical scheme of the embodiment of the application can be applied to the fields of data processing, cluster analysis and the like. When the fields and the scenes of the method and the device are different, the names of specific equipment and places in the embodiment of the application are also different.

First, some terms in the present application are explained so as to be easily understood by those skilled in the art.

(1) The tire dismounting machine, or tire dismounting machine, is a mechanical device which can more conveniently and smoothly dismount or mount the tire in the automobile maintenance process; at present, the tire dismounting machine has a plurality of types, and mainly comprises a pneumatic type and a power type. The main structure of the tire dismounting machine generally comprises a main machine workbench, a separating arm, an air charging and discharging device, a pedal plate, a compressed air interface and the like.

(2) The Internet of things (IoT) is an important component of a new generation of information technology, and is an Internet with which objects and things are connected. The core and the foundation of the Internet of things are still the Internet, and the Internet of things is an extended and expanded network on the basis of the Internet; the user terminal extends and expands to any article to exchange and communicate information, namely the article information. The Internet of things is widely applied to network fusion through communication perception technologies such as intelligent perception, identification technology and pervasive computing.

(3) A pump is a machine that transports or pressurizes a fluid. It transfers the mechanical energy of the prime mover or other external energy to the liquid, causing the liquid energy to increase. The pump is mainly used for conveying liquid such as water, oil, acid-base liquid, emulsion, suspension emulsion and liquid metal, and can also be used for conveying liquid, gas mixture and liquid containing suspended solid. Pumps can be generally classified by their operating principle into three types, positive displacement pumps, dynamic pumps and other types of pumps.

In the following, a description is first given of one of the system frameworks on which the embodiments of the present application are based, and the working state monitoring method of the tire dismounting machine provided by the present application may be applied to the system framework. Referring to fig. 1, fig. 1 is a schematic diagram of a system architecture of a method for monitoring a working state of a tire dismounting machine according to an embodiment of the present application, and as shown in fig. 1, the system architecture includes an internet of things tire dismounting machine, an internet of things server, and a client. The number of the tire dismounting machines of the Internet of things and the specific structure of the tire dismounting machines are not limited in the embodiment of the application. Wherein,

an internet of things tire dismounting machine can be vehicle maintenance equipment comprising an internet of things module and a tire dismounting module. The tire dismantling machine is connected with the client and the server through the Internet of things module, intelligent control equipment is facilitated, and sharing and safe use of the equipment are achieved. And an internet of things module in the internet of things tire dismounting machine undertakes the task of interacting with the internet of things server and the client, and controls the tire dismounting module according to the received information from the client or the internet of things server. An internet of things tire dismounting machine belongs to a sensing layer in an internet of things hierarchical structure.

The Internet of things server is service equipment which is used for bringing various convenience to a third party by rapidly acquiring, processing, analyzing and extracting valuable, massive and diversified data and taking interactive data as a basis. And the internet of things server receives the information sent by the client and the internet of things tire dismounting machine, processes the information according to a corresponding processing algorithm and the like, and feeds back corresponding processing results to the client and the internet of things tire dismounting machine. The server of the internet of things belongs to a network layer in the hierarchy of the internet of things.

The client may be a device located at the outermost periphery of the network in a computer network such as a communication terminal, for example: the client can be a mobile phone or a notebook computer and the like, and is mainly used for inputting data, outputting processing results and the like. The user can send a first instruction to an internet of things module of the internet of things tire dismounting machine through the client; and sending a second instruction to an internet of things module of the internet of things tire dismounting machine. The client belongs to an application layer in the hierarchy of the Internet of things.

It is to be understood that the illustration in fig. 1 is merely an exemplary implementation of the embodiments of the present application. The system architecture in the embodiments of the present application may include, but is not limited to, the above system architecture.

The following specifically analyzes and solves the technical problems proposed in the present application in combination with the above system architecture and the embodiments of the method for monitoring the working state of the tire dismounting machine provided in the present application.

Referring to fig. 2, fig. 2 is a schematic flow chart of a method for monitoring a working state of a tire dismounting machine according to an embodiment of the present disclosure, where the method for monitoring a working state of a tire dismounting machine can be applied to a tire dismounting machine sharing system based on the internet of things (including the above-mentioned architecture). The internet of things-based tire dismounting machine sharing system comprises an internet of things tire dismounting machine, an internet of things server and a client, and will be described from one side of an internet of things module by taking an internet of things module in the internet of things tire dismounting machine as an execution main body in combination with fig. 2, wherein the method can comprise the following steps S201 to S204.

Step S201: the internet of things module receives a first indication sent by the client.

Specifically, the internet of things module can communicate with a client and receive a first instruction sent by the client; the first indication is used to unlock the usage rights of the tyre removal module. The first indication can comprise identification information, unlocking use permission information and the like of the internet-of-things tire dismounting machine; the internet of things module can open the use permission of the user on the internet of things tire dismounting machine according to the identification information of the internet of things tire dismounting machine in the first indication and the unlocking use permission information in the first indication, wherein the use permission of the tire dismounting module of the internet of things tire dismounting machine is mainly unlocked.

In a possible implementation manner, the internet of things module receives a first instruction sent by the client, where the first instruction may be a first instruction sent by the client to the internet of things server to send identification information and unlocking permission information of the target internet of things tire dismounting machine, and after the tire dismounting module capable of unlocking the target internet of things tire dismounting machine is confirmed according to a result fed back by the internet of things server, the first instruction is sent to the internet of things module in the internet of things tire dismounting machine. For example: the internet of things module provides machine identification information such as a two-dimensional code or a machine number for a user, wherein the machine identification information is used for scanning the two-dimensional code of the internet of things tire dismounting machine through a client (such as a sharing client installed on a mobile phone) or inputting the number of the internet of things tire dismounting machine by the user; the client sends corresponding identification information and unlocking use permission requests to the Internet of things server; after the server verifies that the identification information is valid and accepts the unlocking use permission request, a feedback result is sent to the client; and the client sends a first instruction to the Internet of things module according to a result fed back by the Internet of things server so as to unlock the use permission of the tire dismounting module in the scanned Internet of things tire dismounting machine.

In a possible implementation manner, after the internet of things module receives a first instruction sent by a client and unlocks the use permission of the tire dismounting module, the internet of things module can receive a starting instruction sent by a user through the client, and control the tire dismounting module to start and perform subsequent operations; or the internet of things module can receive a starting-up instruction sent by a user by pressing a key of the tire dismounting machine, and control the tire dismounting module to start and carry out subsequent operations.

Step S202: the internet of things module monitors the working state of the tire dismounting module.

Particularly, the internet of things module can monitor the working state of the tire dismounting module in real time, and the normal work of the tire dismounting module in the using process of a user can be guaranteed. The operating state of the tyre removal module may include: the pressure value of a hydraulic power pump of the tire dismounting module, the power state of the tire dismounting module and the like are convenient to send to an internet of things server for related data supervision, analysis, mining and the like. The power pump may include an air pump, a liquid pump, and the like.

In a possible implementation manner, the working state of the tire demounting module may further include a spindle rotation speed of the tire demounting module, and the like. Optionally, detecting the power state of the tire dismounting module may include: detecting information such as voltage, current and the like when a power supply of the device runs through an analog-to-digital conversion module; if the power supply is judged to run normally according to the information, the tire dismounting module continues to dismount the tire; otherwise, the tire dismounting module is stopped, and the power supply is turned off. When the power supply is detected to be turned off, the internet of things tire dismounting machine is confirmed to be in a turned-off state. After detecting the power state of the tire dismounting module, the rotation speed of the spindle can be detected, including: detecting information such as the rotating speed of a main shaft of the equipment during operation through an analog-to-digital conversion module; if the rotating speed value is judged according to the information, the tire dismounting module continues to dismount the tire; otherwise, the internet of things module performs corresponding adjustment. Optionally, the working state may further include a historical usage record of the tire dismounting machine, and the like; and the Internet of things module sends the historical use record to the Internet of things server. Wherein the historical usage record may include: user information, the number of times and time of using the equipment, actual payment cost, equipment loss condition, operation condition of each part of the equipment and the like.

Step S203: and the Internet of things module receives a second instruction sent by the client.

Specifically, the internet of things module can communicate with the client and receive a second instruction sent by the client; the second indication is for closing the usage right of the tyre removal module. The second indication can comprise identification information of the internet of things tire dismounting machine, closing use permission information and the like; the internet of things module can close the use permission of the user on the internet of things tire dismounting machine according to the identification information of the internet of things tire dismounting machine in the second indication and the close use permission information in the second indication, wherein the use permission of the tire dismounting module of the internet of things tire dismounting machine is mainly unlocked.

Step S204: the internet of things module sends the first information to the internet of things server.

Specifically, the internet of things module can interact with the internet of things server and send the first information to the internet of things server in real time, so that the internet of things server can monitor and manage the first information conveniently; after the user uses the internet of things tire dismounting machine, the internet of things server can calculate the normal use time of the target internet of things tire dismounting machine and the like. The first information comprises a working state of the tire dismounting module and time information corresponding to the working state, wherein the working state of the tire dismounting module and the time information correspond to each other and are monitored in a first time period, and the first time period is a time period between the internet of things module receiving the first indication and receiving the second indication.

By implementing the embodiment of the application, the working state of the tire dismounting module can be monitored in the time period between the first indication and the second indication sent by the client, the working state in the time period and the corresponding time information are sent to the Internet of things server, and according to the first time period, the working state of the tire dismounting module monitored by the Internet of things module and the time information corresponding to the working state, the normal operation of the tire dismounting machine is ensured, and the effective monitoring of the working state of the tire dismounting machine is realized. For example, the first indication and the second indication may be an indication used by a user to unlock and unlock the tire changer in a shared scenario of the tire changer, or may be an indication used by the user to verify a legal identity of the user using the tire changer in a secure usage scenario of the tire changer. For example, the effective use duration of the sharing users is controlled, and the use fairness among the sharing users is ensured; counting the effective use time of a user and analyzing the service life of the machine; and counting the effective use time of the user, and charging the user according to the counted time, and the like. The tire dismounting machine can be shared and used in an unattended automobile repair shop, a user with the use qualification of the tire dismounting machine provides corresponding service, the use permission of the tire dismounting machine can be opened, the tire dismounting machine is used for dismounting the tire, the use condition of the machine is accurately fed back to the user, and safe sharing of equipment resources and effective monitoring of the working state of the tire dismounting module are achieved.

With reference to fig. 3, fig. 3 is a schematic flow chart of another method for monitoring the working condition of a tire dismounting machine according to an embodiment of the present application, where the method for monitoring the working condition of a tire dismounting machine is described above with reference to the method embodiment shown in fig. 2, and the method for monitoring the working condition of a tire dismounting machine can be applied to a tire dismounting machine sharing system based on the internet of things (including the above-mentioned architecture). The internet of things-based tire dismounting machine sharing system comprises an internet of things tire dismounting machine, an internet of things server and a client, and will be described from one side of an internet of things module by taking an internet of things module in the internet of things tire dismounting machine as an execution main body in combination with fig. 3, and the method can comprise the following steps of S301-S307. Optionally, step S302, step S304 and step S305 may be further included.

Step S301: the internet of things module receives a first indication sent by the client.

Specifically, see step S201 described above.

Step S302: and the Internet of things module sends a tire dismounting and mounting instruction to the tire dismounting module.

Specifically, after receiving a tire dismounting and mounting instruction sent by a client, the internet of things module sends the tire dismounting and mounting instruction to a tire dismounting module; and the tire dismounting and mounting indicator is used for indicating the tire dismounting module to dismount or mount the tire.

Step S303: monitoring of Internet of things module working state of tire dismounting module

Specifically, see step S202 described above.

Step S304: and under the condition that the pressure value of the power pump exceeds a first preset range, the Internet of things module adjusts the pressure value of the power pump to the first preset range.

Specifically, when any one of the various working parameters of the tire dismounting module is abnormal, the internet of things module can correct the abnormal parameter according to a preset normal parameter value or range. For example, when the pressure value of the power pump of the tire dismounting module is too high, the internet of things module sends corresponding instructions to the control component of the tire dismounting module after detecting that the pressure value is larger than the preset pressure value range, so as to reduce the pressure value to be within the preset pressure value range.

Step S305: and under the condition that the rotating speed of the main shaft exceeds a second preset range, the Internet of things module adjusts the rotating speed of the main shaft to the second preset range.

Specifically, when any one of the various working parameters of the tire dismounting module is abnormal, the internet of things module can correct the abnormal parameter according to a preset normal parameter value or range. For example, when the spindle of the tire dismounting module rotates too fast, the internet of things module sends a corresponding instruction to the control component of the tire dismounting module after detecting that the rotation speed is greater than the preset rotation speed value range, so as to reduce the spindle rotation speed value to be within the preset rotation speed value range.

Step S306: the Internet of things module receives a second instruction sent by the client

Specifically, see step S203 described above.

Step S307: the internet of things module sends the first information to the internet of things server.

Specifically, see step S204 described above.

According to the working state of the tire dismounting machine monitored by the Internet of things module in the first time period and the time information corresponding to the working state, equipment is effectively managed, and the benefit of a user is favorably maintained; instruct through thing networking module that the child module of tearing open to tear child or dress child automation mechanized operation to and real time monitoring tear child machine tear child module open, in order to guarantee to tear child machine and carry out normal operating. The tire dismounting machine based on the Internet of things is used in an autonomous automobile repair place conveniently, and automobile repair resources are saved. The internet of things module unlocks the use permission of the tire dismounting module based on the first indication, so that the use qualification of the user can be confirmed; the internet of things module monitors the working state of the tire dismounting module, and can ensure the normal operation of the tire dismounting machine in the use process of a user; the Internet of things module receives a second instruction sent by the client, and closes the use permission of the tire dismounting module based on the second instruction, so that the time for a user to effectively use the tire dismounting machine can be accurately calculated; the user who has the qualification of the tire dismounting machine can open the use authority of the tire dismounting machine and use the tire dismounting machine to dismount or mount the tire; corresponding service is provided for each user with use requirements, the running condition of the equipment is safely monitored, efficient use of the tire dismounting machine is facilitated, and safe sharing of equipment resources is achieved.

In the above description of the method embodiments shown in fig. 2 and fig. 3 (the internet of things module in the internet of things tire dismounting machine is used as the execution main body), a method embodiment (the internet of things server is used as the execution main body) is described below, please refer to fig. 4, and fig. 4 is a schematic flow diagram of another working state monitoring method for a tire dismounting machine provided in the embodiment of the present application, and the working state monitoring method for a tire dismounting machine can be applied to a tire dismounting machine sharing system based on the internet of things (including the above-mentioned architecture). The internet of things-based tire dismounting machine sharing system comprises an internet of things tire dismounting machine, an internet of things server and a client, and will be described from one side of the internet of things server with reference to fig. 4, and the method may include the following steps S401 to S403. Optionally, step S403 may be further included.

Step S401: the Internet of things server receives first information sent by the Internet of things module.

Specifically, the first information includes a working state of the tire dismounting module monitored by the internet of things module in a first time period and time information corresponding to the working state; the tire dismounting module and the Internet of things module are modules in an Internet of things tire dismounting machine; the first time period is a time period between a first instruction and a second instruction which are sent by a client and received by the internet of things module, the first instruction is used for unlocking the use permission of the tire dismounting module, and the second instruction is used for closing the use permission of the tire dismounting module;

in a possible implementation manner, the first information may include a pressure value of a power pump of the tire demounting module, which is monitored by the internet of things module in a first time period, and time information corresponding to the pressure value of the power pump, and a duration of the tire demounting module in the first time period when the pressure value of the power pump meets a first preset range is determined.

In a possible implementation manner, the first information may include a pressure value of a power pump of the tire removal module and a spindle rotation speed of the tire removal module, which are monitored in a first time period, and time information corresponding to the pressure value of the power pump, a first duration in which the pressure value of the power pump meets a first preset range in the first time period of the tire removal module is determined, and a second duration in which the spindle rotation speed of the tire removal module meets a second preset range in the first time period of the tire removal module is determined.

Step S402: the internet of things server supervises the tire dismounting module according to the first information.

Specifically, thing networking server according to first information supervision tear child module open includes: the Internet of things server determines that the pressure value of the power pump of the tire dismounting module meets target time information of a first preset range in the first time period according to the pressure value of the power pump of the tire dismounting module monitored in the first time period and time information corresponding to the pressure value of the power pump; and the Internet of things server determines the normal working time of the tire dismounting module in the first time period according to the target time information.

In one possible implementation, the first time period includes target time information satisfying a first preset range. And the target time information of the Internet of things server determines the normal working time of the tire dismounting module in the first time period. Optionally, the internet of things server may perform related data supervision, analysis, mining, and the like according to the normal working duration, for example: the service life of the tire dismounting module, the service life of parts of the tire dismounting module (for example, after the target tire dismounting module is used for multiple times, the historical normal working time of the tire dismounting module is compared by the internet of things server, and when the normal working time becomes shorter and shorter, the residual service life of the tire dismounting module is possibly shorter or the parts of the tire dismounting module are possibly damaged), the service cost of the tire dismounting module (for example, the internet of things server can calculate the service cost of the tire dismounting module according to the normal working time and a preset charging rule), and the like can be judged by the internet of things server. It can be understood that the internet of things server can also perform other related data supervision, analysis, mining and the like according to the normal working time.

Step S403: and the internet of things server sends the normal working time of the tire dismantling module in the first time period to the client.

Specifically, the internet of things module counts target time information of the tire dismounting module in the first time period, calculates a normal working time of the tire dismounting module in the first time period according to the target time information, and sends the normal working time to the client. The normal working time length can be used for informing the user of the time for effectively using the tire dismounting machine or the time length for effectively operating the tire dismounting machine in the first time period.

According to the working state of the tire dismounting machine monitored by the internet of things module in the first time period and the time information corresponding to the working state, the operation of equipment is effectively monitored; monitoring the working state of the tire dismounting module in a time period between the first indication and the second indication sent by the client, and sending the working state in the time period and time information corresponding to the working state to the Internet of things server. According to the working state of the tire dismounting module monitored by the Internet of things module in the first time period and the time information corresponding to the working state, the operation of equipment is effectively monitored, the benefit of a user is favorably maintained, and the user experience is improved; instruct through thing networking module that the child module of tearing open to tear child or dress child automation mechanized operation to and real time monitoring tear child machine tear child module open, in order to guarantee to tear child machine and carry out normal operating. The tire dismounting machine based on the Internet of things is used in an autonomous automobile repair place conveniently, and automobile repair resources are saved.

The method of the embodiments of the present application is explained in detail above, and the related apparatus of the embodiments of the present application is provided below.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a working condition monitoring device of a tire dismounting machine according to an embodiment of the present application, which is equivalent to the internet of things module in the system shown in fig. 1. The internet of things module may include a first receiving unit 501, a monitoring unit 502, a second receiving unit 503, and a first sending unit 504.

A first receiving unit 501, configured to receive a first instruction sent by a client through the internet of things module, where the first instruction is used to unlock a usage right of the tire dismounting module.

A monitoring unit 502, configured to monitor the working state of the tire dismounting module by the internet of things module.

A second receiving unit 503, configured to receive, by the internet of things module, a second instruction sent by the client, where the second instruction is used to close the permission of the tire dismounting module;

the first sending unit 504 is configured to send first information to the internet of things server by the internet of things module, where the first information includes a working state of the tire dismantling module and time information corresponding to the working state, which are monitored in a first time period, and the first time period is a time period between the receiving of the internet of things module and the first indication and the receiving of the second indication.

It should be noted that implementation of each operation may also correspond to corresponding description of the method embodiments shown in fig. 2 and fig. 3, and details are not described here again.

Fig. 6 is a schematic structural diagram of another working state monitoring device for a tire dismounting machine according to an embodiment of the present application, and fig. 6 is a schematic structural diagram of another working state monitoring device for a tire dismounting machine, which is equivalent to the internet of things server in the system in fig. 1, and may include a communication unit 601 and a supervision unit 602; optional units, a second sending unit 603 may also be included.

The communication unit 601 is configured to receive first information sent by an internet of things module by an internet of things server, where the first information includes a working state of the tire dismounting module and time information corresponding to the working state, which are monitored by the internet of things module in a first time period; the tire dismounting module and the Internet of things module are modules in an Internet of things tire dismounting machine; the first time period is a time period between a first instruction and a second instruction which are sent by a client and received by the internet of things module, the first instruction is used for unlocking the use permission of the tire dismounting module, and the second instruction is used for closing the use permission of the tire dismounting module;

in a possible implementation manner, the working state of the tire demounting module monitored in the first time period includes a pressure value of a power pump of the tire demounting module monitored in the first time period; according to the first information monitoring the internet of things tire dismounting machine comprises: determining the duration of the tire dismounting module when the pressure value of the power pump meets a first preset range in the first time period according to the pressure value of the power pump of the tire dismounting module monitored in the first time period and time information corresponding to the pressure value of the power pump; and monitoring the tire dismounting module according to the time length and a preset rule.

A supervision unit 602, configured to supervise, by the internet of things server, the tire dismantling module according to the first information.

A second sending unit 603, configured to send, to the client, the normal working time of the tire dismantling module in the first time period by the internet of things server.

It should be noted that implementation of each operation may also correspond to corresponding description of the method embodiment shown in fig. 4, and details are not described here again.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a general device 70 provided in the embodiment of the present application, and as shown in fig. 7, an internet of things module of a tire dismantling machine may be implemented in the structure of fig. 7, and the general device 70 may include at least one storage component 701, at least one communication component 702, and at least one processing component 703. In addition, the device may also include general components such as an antenna, a power supply, etc., which will not be described in detail herein.

The memory component 701 may include one or more memory units, each of which may include one or more memories, which may be used to store programs and various data and enable high-speed, automated access to the programs or data during operation of the generic device 70. Physical devices having two stable states, denoted "0" and "1", respectively, may be employed to store information. The storage component 701 may be a Read-Only Memory (ROM) or other types of static storage devices that can store static information and instructions, a Random Access Memory (RAM) or other types of dynamic storage devices that can store information and instructions, an Electrically Erasable Programmable Read-Only Memory (EEPROM), a Compact Disc Read-Only Memory (CD-ROM) or other optical Disc storage, optical Disc storage (which may include Compact Disc, laser Disc, optical Disc, digital versatile Disc, blu-ray Disc, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, but is not limited to such. The memory may be self-contained and coupled to the processor via a bus. The memory may also be integral to the processor.

The processing component 702, which may also be referred to as a processor, a processing unit, a processing board, a processing module, a processing device, etc. The processing unit may be a Central Processing Unit (CPU), a Network Processor (NP), or a combination of a CPU and an NP, or may be a microprocessor, an application-specific integrated circuit (ASIC), or one or more integrated circuits for controlling the execution of the above programs.

The communication component 703, which may also be referred to as a transceiver, or a transceiver, etc., may be used for communicating with other devices or communication networks, which may include units for wireless, wired, or other communication means.

When the universal device 70 is the internet-of-things tire dismounting machine shown in fig. 1, the processing component 702 is configured to call the data of the storage component 701 to execute the related description of the method shown in fig. 2 to 3, which is not described herein again. When the universal device 70 is the internet of things server shown in fig. 1, the processing unit 702 is configured to call the data of the storage unit 701 to execute the related description of the method shown in fig. 4, which is not described herein again.

In this application, the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiments of the present application.

In addition, functional components in the embodiments of the present application may be integrated into one component, or each component may exist alone physically, or two or more components may be integrated into one component. The integrated components can be realized in a form of hardware or a form of software functional units.

The integrated components, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially or partially contributed by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

While the invention has been described with reference to specific embodiments, the scope of the invention is not limited thereto, and those skilled in the art can easily conceive various equivalent modifications or substitutions within the technical scope of the invention. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

It should be understood that, in the various embodiments of the present application, the sequence numbers of the above-mentioned processes do not mean the execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present application. While the present application has been described herein in conjunction with various embodiments, other variations to the disclosed embodiments may be understood and effected by those skilled in the art in practicing the present application as claimed herein.